TheBandGapEnergyandMaterialClassificationLesson

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THE BAND GAP ENERGY AND MATERIAL CLASSIFICATION LESSON
The Band Gap Energy and Material Classification Lesson
The Band Gap Energy
The band gap energy is the energy needed to break a bond in the crystal. When a bond is
broken, the electron has absorbed enough energy to leave the valence band and “jump” to the
conduction band. The width of the band gap determines the type of material (conductor,
semiconductor, insulator) you are working with. This is shown pictorially using a band diagram.
Material Classification
Crystalline materials can be classified according to their band gap.
An insulator is a poor conductor since it requires a lot of energy, 5-8 eV, to excite the electrons
enough to get to the conduction band. We can say that the width of the band gap is very large,
since it requires that much energy to traverse the band gap, and draw the band diagram
respectively.
A metal is an excellent conductor because, at room temperature, it has electrons in its
conduction band constantly, with little or no energy being applied to it. This may be because of
its narrow or nonexistent band gap, the conduction band may be overlapping the valence band
so they share the electrons. The band diagram would be drawn with Ec and Ev very close
together, if not overlapping.
Semiconductors are so popular is because they are a medium between a metal and an
insulator. The band gap is wide enough to where current is not going through it at all times, but
narrow enough to where it does not take a lot of energy to have electrons in the conduction
band creating a current.
For a more detailed explanation, not to mention action, watch the movie .
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